CN100570773C

CN100570773C - Cascade capacitor

Info

Publication number: CN100570773C
Application number: CNB200610126519XA
Authority: CN
Inventors: 富樫正明
Original assignee: TDK Corp
Current assignee: TDK Corp
Priority date: 2005-08-26
Filing date: 2006-08-25
Publication date: 2009-12-16
Anticipated expiration: 2026-08-25
Also published as: CN1921039A; US20070047176A1; JP2007059814A; JP4146858B2; TW200710893A; KR20070024357A; US7203054B2; KR100798287B1; TWI313472B

Abstract

Cascade capacitor of the present invention possesses: the layered product that is laminated with a plurality of dielectric layers: be configured in a plurality of the 1st terminal electrodes and the 2nd terminal electrode on the outer surface of layered product.Each the 1st terminal electrode and each the 2nd terminal electrode electric insulation on layered product.Layered product has: a plurality of the 1st internal electrodes that have a conductor introduction respectively; A plurality of the 2nd internal electrodes that have a conductor introduction respectively; Bridge 1 connects conductor; Bridge 2 connects conductor.Each the 1st internal electrode is electrically connected on one the 1st different in a plurality of the 1st terminal electrodes terminal electrodes by a conductor introduction.Each the 2nd internal electrode relatively disposes across the 1st internal electrode and dielectric layer, and is electrically connected on one the 2nd different in a plurality of the 2nd terminal electrodes terminal electrodes by a conductor introduction.Bridge 1 connects conductor and the 2nd internal electrode electric insulation, and is electrically connected on a plurality of the 1st terminal electrodes.Bridge 2 connects conductor and the 1st internal electrode electric insulation, and is electrically connected on a plurality of the 2nd terminal electrodes.

Description

Cascade capacitor

Technical field

The present invention relates to cascade capacitor.

Background technology

As cascade capacitor is known a kind of like this cascade capacitor arranged, it possesses: the alternately laminated layered product that a plurality of dielectric layers and a plurality of internal electrodes are arranged; And, a plurality of terminal electrodes (for example, TOHKEMY 2002-299152 communique) that are electrically connected respectively with internal electrode when being configured in the outer surface of layered product.

Above-mentioned cascade capacitor for example, is used to enroll the power circuit of LSI, and control is accompanied by the variation in voltage of rapid electric current change, realizes the stabilisation of power circuit with this.

When the equivalent series resistance of cascade capacitor became minimum, power supply descended significantly when the inductance by peripheral circuit causes covibration, caused the damped vibration of vibration (ringing) etc.Therefore, power circuit becomes unstable.

The cascade capacitor of putting down in writing in TOHKEMY 2002-299152 communique in order to reduce equivalent series inductance, forms the conductor introduction that a plurality of electrodes are internally drawn and are connected with terminal electrode with respect to 1 internal electrode, shortens it simultaneously and draws length.Therefore in the cascade capacitor of putting down in writing in TOHKEMY 2002-299152 communique, it is minimum that equivalent series resistance becomes, and causes the instabilityization of the power circuit that connects sometimes.

Summary of the invention

The present invention makes in order to address the above problem, and the cascade capacitor that provides equivalent series resistance bigger is provided its purpose.

In addition, as the cascade capacitor of the above-mentioned multiterminal subtype that possesses a plurality of terminal electrodes, when checking static capacity, the terminal electrode that needs to be electrically connected homopolarity is measured, and checks numerous and diverse.So, the present invention also aims to provide the inspection that the makes static capacity easy cascade capacitor that becomes.

The cascade capacitor that the present invention is correlated with possesses: the layered product that is laminated with a plurality of dielectric layers; Be configured in a plurality of the 1st terminal electrodes on the outer surface of layered product; And, be configured on the outer surface of layered product, simultaneously with a plurality of the 2nd terminal electrodes of a plurality of the 1st terminal electrode electric insulations.Wherein, layered product has a plurality of inner conductors that clip at least one dielectric layer configuration, and a plurality of inner conductors comprise: a plurality of the 1st internal electrodes that have a conductor introduction respectively; A plurality of the 2nd internal electrodes that have a conductor introduction respectively; Bridge 1 connects conductor; Bridge 2 connects conductor.Each the 1st internal electrode is electrically connected on one the 1st different in a plurality of the 1st terminal electrodes terminal electrodes by a conductor introduction; Each the 2nd internal electrode is through the 1st internal electrode and dielectric layer and configuration relatively is electrically connected on one the 2nd different in a plurality of the 2nd terminal electrodes terminal electrodes by a conductor introduction simultaneously; Bridge 1 connects conductor and the configuration of the 2nd internal electrode electric insulation ground, is electrically connected on a plurality of the 1st terminal electrodes simultaneously; Bridge 2 connects conductor and the configuration of the 1st internal electrode electric insulation ground, is electrically connected on a plurality of the 2nd terminal electrodes simultaneously.

In the cascade capacitor that the present invention is correlated with, connect conductor by Bridge 1 between a plurality of the 1st terminal electrodes and be electrically connected, connect conductor by Bridge 2 between a plurality of the 2nd terminal electrodes and be electrically connected.Consequently, when checking static capacity, need not make in the outside of cascade capacitor be electrically connected between the 1st terminal electrode in, make between the 2nd terminal electrode and be electrically connected, can easily implement thus to check.Conductor and the 2nd internal electrode electric insulation ground dispose, Bridge 2 connects conductor and the 1st internal electrode electric insulation ground disposes because Bridge 1 connects, so, connect conductor and Bridge 2 connects conductor by Bridge 1, can not hinder function as capacitor.

In the cascade capacitor that the present invention is correlated with, each the 1st internal electrode is electrically connected on one the 1st different in a plurality of the 1st terminal electrodes terminal electrodes by a conductor introduction; Each the 2nd internal electrode is electrically connected on one the 2nd different in a plurality of the 2nd terminal electrodes terminal electrodes by a conductor introduction.Therefore, in the cascade capacitor that the present invention is correlated with, current path is limited, and it is bigger that equivalent series resistance becomes.

Preferably, Bridge 1 connects conductor is located at the side on the stacked direction in a plurality of inner conductors outermost, and Bridge 2 connects conductor is located at the opposite side on the stacked direction in a plurality of inner conductors outermost.At this moment, under the situation of the relative position relation that does not influence the 1st internal electrode and the 2nd internal electrode, dispose that Bridge 1 connects conductor and Bridge 2 connects conductor.Therefore, can suppress because the configuration Bridge 1 connects the influence that conductor and Bridge 2 connect the caused static capacity to cascade capacitor of conductor.

Preferably, Bridge 1 connects conductor and the 1st internal electrode is adjacent on stacked direction, and Bridge 2 connects conductor and the 2nd internal electrode is adjacent on stacked direction.At this moment, Bridge 1 connects conductor and heteropole the 2nd internal electrode is non-conterminous on stacked direction, and Bridge 2 connects conductor and heteropole the 1st internal electrode is non-conterminous on stacked direction.Consequently, can prevent to connect between conductor and the 2nd internal electrode and Bridge 2 connects the generation of the static capacity between conductor and the 1st internal electrode at Bridge 1.

Preferably, Bridge 1 connects conductor and Bridge 2 and connects conductor and have the narrow of its width less than the width of each the 1st terminal electrode and Ge Di 2 terminal electrodes.At this moment, Bridge 1 connects the resistance that conductor and Bridge 2 connect conductor and becomes big, and it is big that the equivalent series resistance of cascade capacitor further becomes.

Preferably, Bridge 1 connects conductor and Bridge 2 connects conductor, and from stacked direction, its area is less than the area of each the 1st internal electrode and Ge Di 2 internal electrodes.At this moment, Bridge 1 connects the resistance that conductor and Bridge 2 connect conductor and becomes big, and it is big that the equivalent series resistance of cascade capacitor further becomes.

Easy and the bigger cascade capacitor of equivalent series resistance of inspection of static capacity can be provided according to the present invention.

Can more be expressly understood the present invention by following given detailed description and the accompanying drawing that only provides by way of example, and these can not be considered to limitation of the invention.

Can become clearer according to the following detailed description that provides range of application of the present invention.Yet, should be understood that, the preferred embodiments of the invention that the mode that these describe in detail and particular example just illustrates by way of example shows, from these detailed descriptions, those skilled in the art can understand variations and modifications in aim of the present invention and scope.

Description of drawings

Fig. 1 is the stereogram of the relevant cascade capacitor of present embodiment.

Fig. 2 is the exploded view that is contained in the layered product of the relevant cascade capacitor of present embodiment.

Embodiment

Below, the preferred implementation that present invention will be described in detail with reference to the accompanying.And, in explanation, identical element or key element with identical function are used same-sign, the repetitive description thereof will be omitted.

The structure of the cascade capacitor C1 that the explanation present embodiment that sees figures.1.and.2 is correlated with.Fig. 1 is the stereogram of the relevant cascade capacitor of present embodiment.Fig. 2 is the exploded view of the relevant layered product that cascade capacitor possessed of present embodiment.

Cascade capacitor C1 as shown in Figure 1, possesses the layered product 1 of rectangular shape, and is configured in the 1st terminal electrode 3A～3D and the 2nd terminal electrode 5A～5D on the outer surface of layered product 1.Layered product 1 has: and relative to each other a pair of side 1a, 1b vertical with stacked direction; And relative to each other a pair of end face 1c, 1d vertical with side 1a, 1b with stacked direction; And relative to each other a pair of

side

1e, 1f vertical with end face 1c, 1d with side 1a, 1b.

The 1st terminal electrode 3A～3D and the 2nd terminal electrode 5A～5D are configured on side 1a, the 1b of layered product 1.The

1st terminal electrode

3A, 3B have on the 1a of the side of layered product 1 the upwardly extending roughly banded electrode part in the side parallel with stacked direction, and around going into to side 1e and side 1f.The

1st terminal electrode

3C, 3D have on the 1b of side the upwardly extending roughly banded electrode part in the side parallel with stacked direction, and around going into to side 1e and side 1f.The

2nd terminal electrode

5A, 5B have on the 1a of the side of layered product 1 the upwardly extending roughly banded electrode part in the side parallel with stacked direction, and around going into to side 1e and side 1f.The 2nd terminal electrode 5C, 5D have on the 1b of side the upwardly extending roughly banded electrode part in the side parallel with stacked direction, and around going into to side 1e and side 1f.

The 1st terminal electrode 3A～3D and the 2nd terminal electrode 5A～5D are formed roughly certain width D respectively.The length that width D is each the 1st terminal electrode 3A～3D and the 2nd terminal electrode 5A～5D on the relative direction of a pair of end face 1c, 1d (be parallel to a pair of side 1a, 1b and perpendicular to the direction of stacked direction).

On side 1a, 1b, the 1st terminal electrode 3A～3D, the 2nd terminal electrode 5A～5D are alternately disposing.That is, on the 1a of side, 1c is to side 1d from the side, and the 1st terminal electrode 3A, the 2nd terminal electrode 5A, the 1st terminal electrode 3B, the 2nd terminal electrode 5B are with this arranged in order.On the 1b of side, 1c is to side 1d from the side, and the 1st terminal electrode 3C, the 2nd terminal electrode 5C, the 1st terminal electrode 3D, the 2nd terminal electrode 5D are with this arranged in order.The 1st terminal electrode 3A～3D and the mutual electric insulation of the 2nd terminal electrode 5A～5D.

Layered product 1 as shown in Figure 2, has a plurality of dielectric layers 10～20 and a plurality of inner conductor IC.A plurality of dielectric layers 10～20 are shape in the form of a substantially rectangular, and stacked.In the present embodiment, dielectric layer is 10～20 stacked 11 layers.In the cascade capacitor C1 of reality, dielectric layer 10～20 is turned to the degree that boundary between the dielectric layer 10～20 can not visual identification by one.In the present embodiment, in layered product 1, each dielectric layer 10～20 is alternately disposing with each inner conductor IC.A plurality of inner conductor IC clip at least one dielectric layer configuration.

A plurality of inner conductor IC comprise that the 1st internal electrode the 31～34, the 2nd internal electrode 51～54, Bridge 1 connect conductor 30, Bridge 2 connects conductor 50.In the present embodiment, the 1st internal electrode 31～34 and the 2nd internal electrode 51～54 are that each is 4 folded layer by layer, and Bridge 1 connects conductor 30 and Bridge 2, and to connect conductor 50 1 folded layer by layer for each.

The 1st internal electrode 31～34 is shape in the form of a substantially rectangular, is positioned at from each side 1a～1d of layered product 1 to have on the position at interval of regulation.Each the 1st internal electrode 31～34 has conductor introduction 31A, a 32B, 33C, 34D respectively.Conductor introduction 31A is formed, and leads to the position that disposes the 1st terminal electrode 3A on the side 1a of layered product 1, and is electrically connected with the 1st terminal electrode 3A.Conductor introduction 32B is formed, and leads to the position that disposes the 1st terminal electrode 3B on the side 1a of layered product 1, and is electrically connected with the 1st terminal electrode 3B.Conductor introduction 33C is formed, and leads to the position that disposes the 1st terminal electrode 3C on the side 1b of layered product 1, and is electrically connected with the 1st terminal electrode 3C.Conductor introduction 34D is formed, and leads to the position that disposes the 1st terminal electrode 3D on the side 1b of layered product 1, and is electrically connected with the 1st terminal electrode 3D.Thus, each the 1st internal electrode 31～34 is by the different terminal electrode 3A～3D electrical connection among corresponding conductor introduction 31A, 32B, 33C, 34D and a plurality of the 1st terminal electrode 3A～3D.

The 2nd internal electrode 51～54 is shape in the form of a substantially rectangular, is positioned at from each side 1a～1d of layered product 1 to have on the position at interval of regulation.Each the 2nd internal electrode 51～54 has conductor introduction 51A, a 52B, 53C, 54D respectively.Conductor introduction 51A is formed, and leads to the position that disposes the 2nd terminal electrode 5A on the side 1a of layered product 1, and is electrically connected with the 2nd terminal electrode 5A.Conductor introduction 52B is formed, and leads to the position that disposes the 2nd terminal electrode 5B on the side 1a of layered product 1, and is electrically connected with the 2nd terminal electrode 5B.Conductor introduction 53C is formed, and leads to the position that disposes the 2nd terminal electrode 5C on the side 1b of layered product 1, and is electrically connected with the 2nd terminal electrode 5C.Conductor introduction 54D is formed, and leads to the position that disposes the 2nd terminal electrode 5D on the side 1b of layered product 1, and is electrically connected with the 2nd terminal electrode 5D.Thus, each the 2nd internal electrode 51～54 is by one the 2nd different terminal electrode 5A～5D electrical connection among corresponding conductor introduction 51A, 52B, 53C, 54D and a plurality of the 2nd terminal electrode 5A～5D.

Bridge 1 connects conductor 30 and comprises a plurality of conductor introduction 30A～30D and a plurality of bonding conductor 30p.Each conductor introduction 30A～30D is electrically connected on one the 1st corresponding terminal electrode 3A～3D.Each bonding conductor 30p in layered product 1, is electrically connected between each the conductor introduction 30A～30D with correspondence.Conductor introduction 30A is formed, and leads on the position that disposes the 1st terminal electrode 3A on the side 1a of layered product 1.Conductor introduction 30B is formed, and leads on the position that disposes the 1st terminal electrode 3B on the side 1a of layered product 1.Conductor introduction 30C is formed, and leads on the position that disposes the 1st terminal electrode 3C on the side 1b of layered product 1.Conductor introduction 30D is formed, and leads on the position that disposes the 1st terminal electrode 3D on the side 1b of layered product 1.Bridge 1 connects conductor 30, and is from stacked direction, littler than each the 1st internal electrode 31～34 and Ge Di 2 internal electrodes 51～54 areas.

Each bonding conductor 30p roughly linearity ground extends, to connect each corresponding conductor introduction 30A～30D each other.Bonding conductor 30p is electrically connected conductor introduction 30A and conductor introduction 30D, is electrically connected conductor introduction 30D and conductor introduction 30B, is electrically connected conductor introduction 30B and conductor introduction 30C.

The width of each bonding conductor 30p is narrower than the width D of the 1st terminal electrode 3A～5A and the 2nd terminal electrode 5A～5D.The width of each bonding conductor 30p is narrower than the width of conductor introduction 30A～30D.The width of conductor introduction 30A～30D is the length of conductor introduction 30A～30D on the direction parallel with side 1a, 1b.

Bridge 2 connects conductor 50 and comprises a plurality of conductor introduction 50A～50D and a plurality of bonding conductor 50p.Each conductor introduction 50A～50D is electrically connected on one the 2nd corresponding terminal electrode 5A～5D.Each bonding conductor 50p in layered product 1, is electrically connected between each the conductor introduction 50A～50D with correspondence.Conductor introduction 50A is formed, and leads on the position that disposes the 2nd terminal electrode 5A on the side 1a of layered product 1.Conductor introduction 50B is formed, and leads on the position that disposes the 2nd terminal electrode 5B on the side 1a of layered product 1.Conductor introduction 50C is formed, and leads on the position that disposes the 2nd terminal electrode 5C on the side 1b of layered product 1.Conductor introduction 50D is formed, and leads on the position that disposes the 2nd terminal electrode 5D on the side 1b of layered product 1.Bridge 2 connects conductor 50, and is from stacked direction, littler than each the 1st internal electrode 31～34 and Ge Di 2 internal electrodes 51～54 areas.

Each bonding conductor 50p roughly linearity ground extends, to connect each corresponding conductor introduction 50A～50D each other.Bonding conductor 50p is electrically connected conductor introduction 50D and conductor introduction 50A, is electrically connected conductor introduction 50A and conductor introduction 50C, is electrically connected conductor introduction 50C and conductor introduction 50B.

The width of each bonding conductor 50p is narrower than the width of the 1st terminal electrode 3A～3D and the 2nd terminal electrode 5A～5D.The width of each bonding conductor 50p is narrower than the width of conductor introduction 50A～50D.The width of conductor introduction 50A～50D is the length of conductor introduction 50A～50D on the direction parallel with side 1a, 1b.

The 1st internal electrode 31～34 and the 2nd internal electrode 51～54 are by each dielectric layer 12～18 and alternately stacked.The 1st internal electrode 31 that Bridge 1 connects among conductor 30 and a plurality of inner conductor IC is adjacent on stacked direction.That is, Bridge 1 connects conductor 30 is located at the side on the stacked direction in a plurality of inner conductor IC outermost.The 2nd internal electrode 54 that Bridge 2 connects among conductor 50 and a plurality of inner conductor IC is adjacent on stacked direction.That is, Bridge 2 connects conductor 50 is located at the opposite side on the stacked direction in a plurality of inner conductor IC outermost.

Dielectric layer 10 is layered in than Bridge 1 and connects the position that conductor 30 more is positioned at the outside of stacked direction.Dielectric layer 20 is layered in than Bridge 2 and connects the position that conductor 50 more is positioned at the outside of stacked direction.The effect that dielectric layer 10,20 is also brought into play as protective layer.

As previously discussed,, connect conductor 30 by Bridge 1 between a plurality of the 1st terminal electrode 3A～3D and be electrically connected, connect conductor 50 by Bridge 2 between a plurality of the 2nd terminal electrode 5A～5D and be electrically connected according to present embodiment.Consequently, when the static capacity of inspection layer stack capacitor C1, when need between the outside of cascade capacitor C1 is with a plurality of the 1st terminal electrode 3A～3D, not be electrically connected, a plurality of the 2nd terminal electrode 5A～5D is electrically connected, can easily implement thus to check.Bridge 1 connects conductor 30 and is configured to and the 2nd internal electrode 51～54 electric insulations, and Bridge 2 connects conductor 50 and is configured to and the 1st internal electrode 31～34 electric insulations, so, not can owing to Bridge 1 connect that conductor 30 and Bridge 2 connect conductor 50 and barrier layer stack capacitor C1 as the function of capacitor.

In the present embodiment, each the 1st internal electrode 31～34 is electrically connected on one the 1st different terminal electrode 3A～3D among a plurality of the 1st terminal electrode 3A～3D by conductor introduction 31A, 32B, 33C, a 34D, and each the 2nd internal electrode 51～54 is electrically connected on one the 2nd different terminal electrode 5A～5D among a plurality of the 2nd terminal electrode 5A～5D by conductor introduction 51A, 52B, 53C, a 54D.Therefore, in cascade capacitor C1, current path is limited, and it is bigger that equivalent series resistance becomes.

In the present embodiment, Bridge 1 connects conductor 30 is positioned at the side on the stacked direction in a plurality of inner conductor IC outermost, and Bridge 2 connects conductor 50 is positioned at the opposite side on the stacked direction in a plurality of inner conductor IC outermost.Thus, can be under the situation of the relative position that does not influence the 1st internal electrode 3A～3D and the 2nd internal electrode 5A～5D, dispose that Bridge 1 connects conductor 30 and Bridge 2 connects conductor 50.Consequently, can suppress the influence that connects owing to the configuration Bridge 1 that conductor 30 and Bridge 2 connect that conductor 50 causes to the static capacity of cascade capacitor C1.

In the present embodiment, it is adjacent on stacked direction with the 1st internal electrode 31 that Bridge 1 connects conductor 30, and it is adjacent on stacked direction with the 2nd internal electrode 54 that Bridge 2 connects conductor 50.Thus, it is non-conterminous on stacked direction with heteropole the 2nd internal electrode 51～54 that Bridge 1 connects conductor 30, and it is non-conterminous on stacked direction with heteropole the 1st internal electrode 31～34 that Bridge 2 connects conductor 50.Consequently, can prevent that Bridge 1 from connecing between conductor 30 and the 2nd internal electrode 51～54 and Bridge 2 connects the generation of the static capacity between conductor 50 and the 1st internal electrode 31～34.

In the present embodiment, Bridge 1 connects conductor 30 and Bridge 2 and connects conductor 50 and have bonding conductor 30p, the 50p that width is narrower than the width of each the 1st terminal electrode 3A～3D and Ge Di 2 terminal electrode 5A～5D.Thus, Bridge 1 connects the resistance that conductor 30 and Bridge 2 connect conductor 50 and becomes big, and therefore, it is big that the equivalent series resistance of cascade capacitor C1 further becomes.

In the present embodiment, Bridge 1 connects conductor 30 and Bridge 2 connects conductor 50, and is from stacked direction, littler than each the 1st internal electrode 31～34 and Ge Di 2 internal electrodes 51～54 areas.Thus, Bridge 1 connects the resistance that conductor 30 and Bridge 2 connect conductor 50 and becomes big, and the equivalent series resistance of cascade capacitor C1 also further increases.

The width of bonding conductor 30p, 50p is narrower than the width of conductor introduction 30A～30D, 50A～50D.Like this, narrower by the width that makes bonding conductor 30p, 50p, can further increase equivalent series resistance.In addition, by the width of further increase conductor introduction 30A～30D, 50A～50D, can make the physics of conductor introduction 30A～30D, 50A～50D and the 1st, the 2nd terminal electrode 3A～3D, 5A～5D contact more reliable.Therefore, be narrower than the width of conductor introduction 30A～30D, 50A～50D by the width that makes bonding conductor 30p, 50p, it is more reliable that the physics of conductor introduction 30A～30D, 50A～50D and the 1st, the 2nd terminal electrode 3A～3D, 5A～5D is contacted, and can further increase equivalent series resistance simultaneously.

From invention described above as can be known, the present invention can change in every way.These changes can not be counted as having broken away from the spirit and scope of the present invention, for all conspicuous these of those of ordinary skills are revised, and all are comprised in the scope of claim of the present invention.

Claims

1. a cascade capacitor is characterized in that,

Possess:

Be laminated with a plurality of dielectric layers layered product and

Be configured in a plurality of the 1st terminal electrodes on the outer surface of described layered product, and

Be configured on the outer surface of described layered product and with a plurality of the 2nd terminal electrodes of described a plurality of the 1st terminal electrode electric insulations; Wherein,

Described layered product has a plurality of inner conductors that clip at least one described dielectric layer and dispose;

Described a plurality of inner conductor comprises: a plurality of the 1st internal electrodes that have a conductor introduction respectively; A plurality of the 2nd internal electrodes that have a conductor introduction respectively; Bridge 1 connects conductor; And Bridge 2 connects conductor;

Each described the 1st internal electrode is electrically connected on one the 1st different terminal electrode in described a plurality of the 1st terminal electrode by a described conductor introduction;

Each described the 2nd internal electrode is across described the 1st internal electrode and described dielectric layer and configuration relatively, is electrically connected on one the 2nd different terminal electrode in described a plurality of the 2nd terminal electrode by a described conductor introduction simultaneously;

Described Bridge 1 connects conductor and the configuration of described the 2nd internal electrode electric insulation ground, is electrically connected on described a plurality of the 1st terminal electrode simultaneously respectively, makes between described a plurality of the 1st terminal electrode to be electrically connected mutually;

Described Bridge 2 connects conductor and the configuration of described the 1st internal electrode electric insulation ground, is electrically connected on described a plurality of the 2nd terminal electrode simultaneously respectively, makes between described a plurality of the 2nd terminal electrode to be electrically connected mutually.

2. cascade capacitor as claimed in claim 1 is characterized in that,

Described Bridge 1 connects conductor is positioned at the side on the stacked direction in described a plurality of inner conductors outermost;

Described Bridge 2 connects conductor is positioned at the opposite side on the stacked direction in described a plurality of inner conductors outermost.

3. cascade capacitor as claimed in claim 2 is characterized in that,

It is adjacent on stacked direction with described the 1st internal electrode that described Bridge 1 connects conductor,

It is adjacent on stacked direction with described the 2nd internal electrode that described Bridge 2 connects conductor.

4. cascade capacitor as claimed in claim 3 is characterized in that,

Described Bridge 1 connects conductor and described Bridge 2 and connects conductor and have the part that width is narrower than the width of each described the 1st terminal electrode and each described the 2nd terminal electrode.

5. cascade capacitor as claimed in claim 1 is characterized in that,

Described Bridge 1 connects conductor and described the 2nd internal electrode is non-conterminous on stacked direction,

Described Bridge 2 connects conductor and described the 1st internal electrode is non-conterminous on stacked direction.

6. cascade capacitor as claimed in claim 5 is characterized in that,

7. cascade capacitor as claimed in claim 1 is characterized in that,

Described Bridge 1 connects conductor and described Bridge 2 and connects conductor and have the part that width is narrower than the width of each described the 1st terminal electrode and each described a plurality of the 2nd terminal electrode.

8. cascade capacitor as claimed in claim 2 is characterized in that,

Described Bridge 1 connects conductor and described Bridge 2 and connects conductor and have the part that width is narrower than the width of each described a plurality of the 1st terminal electrode and each described a plurality of the 2nd terminal electrode.

9. cascade capacitor as claimed in claim 1 is characterized in that,

Described Bridge 1 connects conductor and described Bridge 2 connects conductor, and from stacked direction, its area is less than the area of each described the 1st internal electrode and each described the 2nd internal electrode.

10. cascade capacitor as claimed in claim 2 is characterized in that,

11. cascade capacitor as claimed in claim 3 is characterized in that,